Method and system for advertisement using internet browser with book-like interface

ABSTRACT

An electronic advertisement method and system for an Internet browser with a book-like page-based flipping interface. Full pages of electronic advertisements presented on the computer screen are possible without Obstructing the viewing and reading of other contents. This benefits both the viewer as well as the advertiser. An advertisement matching/delivery system provides a novel method of inserting advertisements into content as well as a novel method for revenue sharing among the parties involved.

CROSS-REFERENCE TO RELATED PATENT DOCUMENTS

[0001] This application is related to copending patent application, Ser.No. 09/617,043, filed Jun. 14, 2000; Ser. No. 08/992,793,. filed Dec.18, 1997; U.S. Pat. No. 5,909,207; and U.S. Pat. No. 6,064,384, all ofwhich being incorporated herein by reference.

BACKGROUND OF THE INVENTION

[0002] 1. Field of the Invention

[0003] The present invention relates to a system and method foradvertising using an Internet browser with a book-like, flippingpage-based interface. The present invention takes advantage of thebook-like interface to create a better advertisement-viewing/readingexperience for the user on the one hand and more effective delivery ofadvertisements for the advertiser on the other hand. At the same time, anovel advertisement matching and delivery model in connection with thisinterface becomes possible and suggests new methods for matching up thecontent providers and advertisers, as well as methods for revenuesharing between the involved parties.

[0004] 2. Discussion of the Background

[0005] Currently, documents available on the Internet are usuallyrepresented in the format of “hypertext.” Each hypertext “page” can bearbitrarily long, and may or may not fit within one computer monitorscreen. Pages of hypertext are linked by “hyperlinks” —on each page of ahypertext, there might be one or more “links” in the form of pictures orwords which, when selected and clicked on (with, say, an input devicesuch as a computer mouse) will cause the hypertext document to which thehyperlink is linked to appear on the monitor screen. In other words, thetext of the new page replaces the earlier hypertext page. This is themechanism by which, for example, the two most popular Internetbrowsers—Microsoft INTERNET EXPLORER® and Netscape COMMUNICATOR®—function.

[0006] In order to view a hypertext page that is longer and/or largerthan one screen, one or more mechanisms is provided that scroll the pageup and down (and/or left and right), or jump to a particular point inthe page (through the use of, for example, a computer mouse coupled withscroll bars at the edges of the page displayed on the screen). In someembodiments, hyperlinks at one location in the hypertext page may pointto another location of the same page and, when the hyperlink is clicked,the destination section is brought into view.

[0007] However, it is well known in human-computer interface researchthat these hypertext/hyperlink assemblages suffer from a number ofproblems. Chief among them is the navigation problem—the reader of ahypertext/hyperlink assemblage covering several pages often becomes lostduring navigation of the hypertext pages. In other words, he/she oftendoes not know where the displayed section of the hypertext/hyperlinkassemblage is located relative to the entire content of thehypertext/hyperlink assemblage, what other content is present in thehypertext/hyperlink assemblage, where the other content is relative tothe total content of the hypertext/hyperlink assemblage, and how tochange the display from one section of the hypertext/hyperlinkassemblage to another section of the assemblage.

[0008] Another disadvantage described by Internet surfers (people whoread Internet documents) is that it is difficult to return to aparticular hypertext page despite the fact that “forward” and “back”buttons are available on the Internet browser (such as Microsoft'sINTERNET EXPLORER® or Netscape's COMMUNICATOR®). Since the hypertextpages are linked by a large number of links with no particularsequential or ordered multi-level organization, these two simplecommands make transitioning from one page to another difficult when thereader hasn't followed a direct link between those pages. In otherwords, the “forward” and “back” buttons presume a sequentialforward-backward organization in an assemblage that lacks suchorganization. Thus, the Internet surfers are often lost when trying toread a document with a complex organizational structure using onlysimple commands to proceed through the document.

[0009] On the other hand, sequential organization of information isfound in the traditional book—pages are linked sequentially one afteranother. Though mechanisms for jumping across many pages are available,such as by selecting a page from the side of the book and flipping tothe page, the information in the book is still laid out in an orderly,sequential manner. Also, a reader/browser can jump anywhere in the bookat any time in any random order while maintaining a good understandingof where he/she is in the book because, in the process of flipping andjumping about, the location information is captured by the thickness ofthe book on both sides of a selected page, as well as during theflipping process. The flipping of the pages allows one to know thedirection of movement through the document as well as how much one hasmoved through the document. The advantage of knowing where one is at anygiven time reduces the navigation problems if not eradicates thementirely.

[0010] Furthermore, one can also quickly and easily obtain an overviewof all the information in the book by flipping through the book. On theother hand, a person is not only bound to become lost when browsing a1000-page hypertext/hyperlink assemblage. Furthermore, such anindividual will have difficulties obtaining an overview of theinformation content of such an assemblage.

[0011] Hence the major defects with hypertext—the navigationproblems—are not present in the traditional book. One can browse a bookof 1000 pages, and yet one can still comfortably know where one is, whatelse is in the book, and how to move from one point to another.

[0012] As a result, people browsing large amounts of information on theInternet often prefer to print the hypertext pages out on paper and thenhold these sheets in their hands and browse through them much like theway they would browse through a book to look for and read information ofinterest.

[0013] The interaction between a reader/browser and printed material ina book is a subtle and complicated activity. To begin with, the materialin a book is presented in a sequential order, with a continuity ofmaterial from page to page, and there is a hierarchical structure in thematerial presented (e.g., the material is organized into chapters,sections, subsections, etc.) because ideas in the material are relatedto each other in some kind of conceptual hierarchy. The human perceptualsystem inputs this data in a sequential manner, and after a book is readfrom the beginning to the end in a sequential fashion, the brain thenrecreates the conceptual hierarchy after viewing the material involved.However, very often one does not read a book (or input the materialinvolved) from the beginning to the end because (a) one wants to have anoverview of the material present; (b) one is searching for a particularitem of interest; or (c) one is interested in reading only particularportions of the book (in the case of, e.g., reading the manual tounderstand how to operate something). In these cases, one browsesthrough the subject book to find the material of unique interest.

[0014] Two basic things are achieved in the browsing process. First, thebrowser has a glimpse of what the contents of the book document are.Second, the browser has an idea of approximately where the items ofinterest are so that the browser can (a) return to look for them laterwhen needed, and (b) understand the relationships between the materialcurrently being viewed and other material (i.e., an understanding of thehierarchical structure involved). When browsing a book document, manyfinger-operations are required of the browser in order to flip throughthe pages. This mechanical act of flipping the pages, together with theinherent sequential order imposed by the pages, quickly allows thebrowser to have an understanding of the nature, location, andorganization of the material in a book.

[0015] Similarly, the vast amount of information available on theInternet can benefit from the organizational structures normally foundin a book, e.g., the sequential, page-by-page organization ofinformation. These organizational structures give rise to two majorbenefits: 1. navigational problems are greatly reduced—e.g., they allowthe browser to know where a particular portion of text is relative tothe entire content of a document, what other information. exists in thatdocument, and how to move from one section of information to another inthe case of browsing through hypertext pages, and 2. a good overview ofthe content of a document becomes easily available.

[0016] The sequential organization of information is not intended toreplace the hyperlink mechanism available in a hypertext document.Instead, it is complementary to it. Other than having the pages linkedin a sequential manner and accessible through a thickness display of the“book-like” representation, the hyperlink mechanism is retained andimproves the browsing process. The advantage of the hyperlink is thatthe users can move quickly from one portion of the content to anotherrelated portion of the content. However, in the book-like, page-basedsequential organization, when a hyperlink is selected and triggered, theprocess of going to the new portion of the content emulates the physicalprocess. For example, flipping animation showing a number of pagesmoving across the screen proportional to the amount of informationbetween the location of the hyperlink and the location pointed to by thehyperlink. This will aid users in knowing where the content they arereading and where the content that they will be reading is locatedwithin the hypertext/hyperlink assemblage and, combined with thetraditional processes of hyperlinking, will aid the process of searchingfor information.

[0017] The hypertext linking mechanism is in some ways an electronicversion of the traditional index usually found at the end of a book.When one is interested in a particulare keyword or topic of interest,one may flip to the index at the end and, from there, move to anotherpage that contains related keywords or topics. This two-stepprocess—first moving to the index page then to the destination page—isachieved in one step with the hypertext linking mechanism. However,unlike physical paper books, the electronic hypertext linking processdoes not require physical flipping of pages to move to a new portion ofthe content. Instead, the electronic “goto” is effortless andinstantaneous.

[0018] There are further differences between hypertext/hyperlinkassemblages and traditional book (or magazine) representations ofdocuments that are related to the placement and type of advertisementstherein. In hypertext/hyperlink assemblages, advertisements that appearon the pages are rarely, if ever, sizable relative to the size of thepage or the size of the viewable area on the computer screen. Therefore,advertisements most commonly appear as “banners” on the Web pages.However, in traditional paper books or magazines, advertisements oftenappear as full pages, and often as a succession of full pages. Eventhough advertisements on the pages of a traditional paper book ormagazine still hinder and obstruct the reading and browsing process,especially in the case of full-page advertisements, this is somehowmoderated by the book-like representation and tolerated by the users.This is in sharp contrast to advertisements in hypertext: full-page ormultiple consecutive full-page advertisements on a hypertext Web pageare anathema to many web readers.

[0019] The reason that full-page or multiple consecutive full-pageadvertisements are tolerable to readers of book-like representations isthat the flipping page, book-like interface (such as in the cases of thetraditional paper book and the interface of a special kind of flipping,book-like Internet browser described in co-pending patent applicationSer. No. 09/617,043, filed Jun. 14, 2000, Ser. No. 08/992,793, filedDec. 18, 1997, as well as a special kind of book-like human-computerinterface described in U.S. Pat. No. 6,064,384) creates a 3-dimensionaleffect. Users feel that they can simply flip these “obstructing” pagesaway very easily (either using their hands directly on the pages in thecase of the paper book or using an input controller such as a mouse inthe case of the special Internet browser described in copending patentapplication Ser. No. 09/617,043, filed Jun. 14, 2000, or using a specialflip-browsing controller described in U.S. Patent No. 5,909,207)

[0020] Book-like representations thus provide agnew method and systemfor electronic advertisement. In contrast with this new method andsystem, traditional advertisements on scrolling or hypertext/hyperlinkassemblages are too restrictive from the point of view of theadvertiser.

[0021] Advertisement is a necessary component of modern commerce.Conflicting issues are involved in advertising and include the factsthat 1. the advertiser wants to deliver a message to the consumer, sothe attention of the consumer has to be captured, and 2. the advertisermust not present the advertisement in a way or to the extent that ithinders the reading/viewing activity of the consumer or annoys theconsumer.

[0022] The current advertisement method on the Internet is veryrestrictive. An advertiser can only display “banner” ads, as explainedearlier. This is due to the kind of interface currently available oncomputers—the Windows interface which derives from the “desktopsmetaphor which basically involves a presentation of a series of2-dimensional “window” interfaces. On this kind of interface, theadvertisers either have to contend with a small banner, which does notquite satisfy the need to deliver a message effectively to theconsumers, or they have to enlarge the banner which hinders theactivities of the consumer and annoys the consumer. Therefore, theparameters of the advertisement are very limited and not necessarilyeffective.

[0023] Another current method of advertisement on the Internet uses apop-up window whenever the user enters a certain Web page to view data.This type of pop-up window is ineffective for both the consumer and theadvertiser. From the point of view of the consumer, pop-up windows areannoying, especially when they are big. From the point of view of theadvertiser, pop-up windows are ineffective because the pop-up window,unlike the usual banner advertisements on the Web pages, are notdisplayed long enough for the consumer to absorb the message. Manyconsumers simply close the pop-up window or move the desired Webcontents into view and relegate the pop-up window to the background.Thus, the pop-up windows are commonly not viewed by the consumer for anyperiod of time.

[0024] Moreover, another problem with current browsers and browsingmethods relates to their limited ability to identify, contact, andrecruit advertisers that will be inserting advertisements into thedisplayed content.

[0025]FIG. 14 is a table that illustrates various participants (alongthe abscissa) in the process of delivering various forms of content(along the axis) to a consumer, as well as their advertising practices.For example, in traditional books (first column), the book content iscreated by an author, “published” by a book publisher, and delivery of a“display” of this content (i.e., the book) is performed by a printer whomanufacturers the books and a distributor who, in one form or another,brings the printed book to the consumer. In traditional book publishing,the advertisement process is limited to only a few participants and isfurthermore unresponsive to changes in the marketing environment. Forexample, an author can insert advertisements into the content thatadvertise him/herself (such as the self-aggrandizing statements commonlyfound in the autobiographies of sports figures) or others (such as acommercial company that has paid the author to “place” a product withina particular manuscript). The book publisher commonly has almost noability to advertise within the content, but rather chooses to placeadvertisements before and/or after the content. Furthermore, theseadvertisements only relate to the publisher and commonly amount tonothing more than a publisher's name on the book jacket or on the titlepage, and possibly a listing of other books available from the samepublisher and/or author found before or after the content. Finally, theentities that deliver the content display to the consumer, namely theprinter and book distributor (such as a bookstore), have almost noability to insert advertisements regarding themselves and/or others intoor before/after the content.

[0026] A similar situation is found in regard to the participants in theprocess of delivering newspaper/magazine content to consumers (FIG. 14,second column), except for the fact that magazine/newspaper publishersactively advertise for others both within and before/after the content.Once again, the entities that deliver the content display have almost noability to insert advertisements.

[0027] In regard to the delivery of television/movies content toconsumers (FIG. 14, third column), the entities that deliver the displayhave developed methods of inserting advertisements before the content.For example, movie theaters commonly insert advertisements forthemselves and for local businesses prior to the showing of a film.Furthermore, the manufacturers of the display also insert advertisementsprior to the start of a film. An example is the advertisements for“DOLBY SURROUND SOUTND” commonly shown prior to commencement of thefilm. In these cases, the entities that deliver the content to theconsumer have developed a limited ability to advertise before thedelivery of the content.

[0028] Advertisement in Internet data transmission has not yet beendeveloped even to the extent known in the delivery of movie/televisioncontent displays. As shown in the fourth column of FIG. 14, there areseveral entities that participate in delivery of the content to theconsumer. A separate web host can-maintain and/or update a memorycontaining the content under the direction of a web publisher. AnInternet service provider can transmit the content data from the webhost memory to a consumer's site. A browser producer can provide abrowser that will decode and generate instructions for displaying thecontent data at the consumer's site. Finally, a monitor or other outputdevice can display the content under the instructions of the browser.

[0029] The insertion of advertisements by each of these entities thatdeliver Internet content to the consumer is haphazard at best. Forexample, the web host is entirely unknown to an individual who isaccessing content stored on the web host's computers. Internet serviceproviders such as NETZERO place a banner advertisement across the top ofthe display screen. Thus, this banner is neither inserted into theactual content nor targeted to the content being, accessed, andfurthermore retains the aforementioned problems of banneradvertisements. Monitor manufacturers only include a corporate logolocated outside the content display area, and generate no directadvertising revenue thereby.

[0030] Advertisements recruited, selected, and displayed by a browserproducer are likewise primitive. Both NETSCAPE NAVIGATOR and MICROSOFTINTERNET EXPLORER have limited advertisements to a title of the browserprogram and one or more corporate trademarks displayed at variouslocations on the browser window. This prohibits the browser producersfrom advertising for others than themselves, from inserting theadvertisements within the displayed content, and from receiving revenuefor the advertisement of various products made by others.

[0031] Therefore, the inventor has identified a need for a novel systemand method for electronic advertisement that can be integrated into anInternet browser. Moreover, the inventor has identified an Internetbrowser with a book-like interface such as that described in copendingpatent application Ser. No. 09/617,043, filed Jun. 14, 2000 or a specialkind of book-like human-computer interface described in U.S. Pat. No.6,064,384 that takes full advantage of the interface for the mosteffective delivery of advertisements to the users. The inventor hasfurthermore recognized that advertisements inserted by the browser canlead to different revenue sharing models.

SUMMARY OF THE INVENTION

[0032] In view of the aforementioned short-comings of presentlyavailable schemes for delivering electronic advertisements on theInternet, one objective of the present invention is to provide a novelmethod and system for electronic advertisement that is modeled after thetraditional paper book. These involve inserting pages of advertisementsamong the contents that are represented in a flipping book-like manner.The advertisements inserted in this manner do not obstruct or hinder thereading of the contents to an extent that will annoy the reader.

[0033] Another objective of the invention is to provide a novel methodand system for inserting full-page, multiple full page, or nearlyfull-page advertisements in between pages of materials downloaded fromthe Internet.

[0034] Yet another objective of the invention is to provide a novelmethod and system for inserting advertisements either among the pagesthat belong to a single electronic book or to a Web site currently beingbrowsed using an Internet browser, or between pages belonging todifferent electronic books or Web sites.

[0035] A further objective of the invention is to provide a novelelectronic advertisement matching/delivery method and browser systemthat recruits, selects, and/or identifies advertisers, and matches themwith content providers/authors through a advertisement portal site basedon the classification of the contents of a hypertext/hyperlinkassemblage.

[0036] A yet further objective of the invention is to provide a novelmethod and system for “dynamically” delivering and/or streamingadvertisements to users using a book-like Internet browser to browseinformation on the Internet.

[0037] Another objective of the invention is to provide a novel “static”advertisement delivery method and system where advertisements arepre-delivered and incorporated into the electronic books hosted on someWeb sites.

[0038] Yet another objective of the invention is to provide a novel“static” electronic advertisement request method and system which allowsusers/electronic book authors/content providers to specify the kind ofadvertisements they are looking for and other parameters of theadvertisements so that an automatic advertisement matching system canidentify the relevant advertisements to be incorporated into theelectronic books hosted on some Web sites.

[0039] A further objective of the invention is to provide a novel“static” electronic advertisement offer method and system which allowsadvertisers to specify the kind of advertisements they are offering (aswell as other parameters of the advertisements) so that an automaticadvertisement matching system can identify the relevant advertisementsto be offered to electronic book authors or other content providers.

[0040] A yet further objective of the invention is to provide anautomatic advertisement matching system and method that willautomatically match advertisement requests and advertisement offersresident in a database.

[0041] Another objective of the invention is to provide a novel methodand system for extending the existing electronic book format—the OEBformat—to encode the unique parameters associated with howadvertisements are to appear within an electronic book.

[0042] Yet another objective of the invention is to provide aprivacy-ensured method of dynamically streaming information to anInternet browser so that his or her identity is not compromised.

[0043] A further objective of the invention is to provide a revenuesharing method and system for all parties involved in the noveladvertisement matching/delivery method and system.

[0044] A yet further objective of the invention is to provide a methodand system for Web sites and HTML pages to provide a classification codefor their contents to facilitate matching of advertisers with contentproviders.

BRIEF DESCRIPTION OF THE DRAWINGS

[0045] A more complete appreciation of the invention and many of theattendant advantages thereof will be readily obtained as the samebecomes better understood by reference to the following detaileddescription when considered in connection with the accompanyingdrawings, wherein:

[0046]FIG. 1A is a top perspective view of an exemplary Internetbrowsing book displayed on a computer screen that is used to displayinformation downloaded from the Internet;

[0047]FIG. 1B is a top perspective view of the exemplary Internetbrowsing book displayed on the computer screen during the process ofjumping a number of pages ahead in the book;

[0048]FIG. 1C is a top perspective view of the exemplary Internetbrowsing book displayed on the computer screen in the process offlipping to the next page;

[0049]FIG. 1D is a top perspective view of the exemplary Internetbrowsing book displayed on the computer screen during the process offlipping many pages simultaneously;

[0050]FIG. 2A is a top perspective view of the exemplary Internetbrowsing book just before the start of a browsing session beforeinformation is downloaded from the Internet;

[0051]FIG. 2B is a sequence of top perspective views of the exemplaryInternet browsing book in the process of downloading some newinformation from the Internet in response to the entry of a URL;

[0052]FIG. 2C is a sequence of top perspective views of the exemplaryInternet browsing book in the process of downloading some newinformation from the Internet in response to the selection andactivation of a hyperlink on the page of the exemplary Internet browsingbook;

[0053]FIG. 3A is a top perspective view of the exemplary Internetbrowsing book after it has acquired a number of pages of Internetinformation;

[0054]FIG. 3B is a top perspective view of the exemplary Internetbrowsing book showing a number of flipped open pages, some of which maycontain advertisements;

[0055]FIG. 4 is a diagram showing the various components of an exemplaryadvertisement matching/delivery system on the Internet;

[0056]FIG. 5A is a diagram showing an exemplary Advertisement RequestInterface used for requesting for advertisements;

[0057]FIG. 5B is a diagram showing an exemplary, Advertisement OfferInterface used for offering advertisements;

[0058]FIG. 6 is a diagram showing an exemplary format used inconjunction with our advertisement system for the representation andcoding of book parameters that is an extension to the existing OEBformat;

[0059]FIG. 7 illustrates an alternate and/or complementary exemplarysystem for providing advertisements using an Internet browser;

[0060]FIG. 8a-d illustrate exemplary data records for use in the currentsystem;

[0061]FIG. 9 illustrates a process flow according to a first embodimentof the present invention for insertion and display of an advertisementby browser software;

[0062]FIG. 10 illustrates a process flow according to a secondembodiment of the present invention for insertion and display of anadvertisement by browser software;

[0063]FIG. 11 illustrates a process flow according to a third embodimentof the present invention for insertion and display of an advertisementby browser software;

[0064]FIG. 12 illustrates a process flow according to a fourthembodiment of the present invention for insertion and display of anadvertisement by browser software,;

[0065]FIG. 13 illustrates an exemplary computer system upon which, forexample, many of the database systems illustrated in FIG. 7 can beimplemented; and

[0066]FIG. 14 is a table illustrating participants in bringing contentto a consumer, and known advertisement methods of those participants.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0067] Referring now to the drawings, wherein like reference numeralsdesignate identical or corresponding parts throughout the several views,and more particularly to FIG. 1A thereof which depicts one embodiment ofthe Internet browser interface. The information downloaded from theInternet is displayed on two pages as in an opened book. At this stage,a number of Internet pages have been browsed and collected in the“Internet browsing book” 100. The amount of material before and afterthe current pages (the pages in view) is shown as varying thicknesses onthe left and right sides (101 and 102), respectively (as well as theleft and right bottom edges (103 and 104)), of the book. On the left andright thicknesses (101 and 102) are shown a number of bookmarks(105-107) that bookmark some of the pages that have been viewed earlier.There are three types of bookmarks on these thicknesses. They arepage-bookmarks 105, annotation bookmarks 106, and finger bookmarks 107.These bookmarks are described in detail in copending application Ser.No. 09/617,043, filed Jun. 14, 2000. On the bottom thicknesses (103 and104) are shown a number of keyword bookmarks 108. A URL (UniversalResource Locator) field 109 above the browsing book 100 allows URLaddresses to be entered.

[0068] In order to allow the user to select any desired page, jumpcursors 110 and 111 are provided on the left and right thickness (101and 102). The user, using a mouse or other control, can move the left orright jump cursors (110 and 111, respectively) up and down the left orright thicknesses (101 and 102, respectively). The page number mayappear on the tag of the jump cursor to display the page selected by thejump cursor. When the user has decided to jump to a certain page usingthe jump cursor to select that page, he/she can use the mouse or otherinput device to activate the jump.

[0069]FIG. 1B depicts the display when a selected page in the browsingbook 100 is jumped to. This jump may have been either activated, e.g.,by the selection of a bookmark (e.g., page-bookmark 105) or by the jumpcursor (e.g., jump cursor 110 or 111). The thickness 112 between thepage originally in view 113 and the page jumped to 114 is shown movingacross the computer screen in continuous animation, much like in aphysical book.

[0070]FIG. 1C depicts the display when one page 120 in the browsing book100 is being flipped. The page 120 is shown bending and moving acrossthe computer screen to reveal the underlying page 121. FIG. 1D depictsthe display when, because of an increased rate of moving through thebrowsing book 100, more than-one page (122-125) is moving across thecomputer screen at the same time. The user can then select to freeze allthe pages in motion, if desired. FIG. 2A-2C depict example display whenthe browsing book 100 is created. FIG. 2A shows the beginning of anInternet browsing process when a browsing session is launched. A book200 is created and displayed. At this time the book consists only of thefront cover 201 and back cover 202.

[0071]FIG. 2B depicts what happens when a URL 203 (Universal ResourceLocator—the address of a “Web page”) is entered into the field 204 onthe top of the display and activated. The front cover 201 of thebrowsing book 200 is flipped open, revealing a new page 205 in the book200. On the new page 205, the web page 206 of the URL 203 is displayed.The left hand page (210) is empty.

[0072] A number of hyperlinks (207-209) are available on the web page206. FIG. 2C depicts what happens when hyperlink 207 on the web page 206(FIG. 2B) is selected and activated. The page 205 flips to reveal twomore new pages (211 and 212) added to the browsing book 200. On page211, the contents of the Web page 213 pointed to by the hyperlink 207(FIG. 2B) are displayed. The left side of the Internet browsing book 200now indicates a relatively small thickness because of the limited numberof pages added to the left side. As more contents are brought into theInternet browsing book 200, the book acquires increased thicknesses onboth sides.

[0073]FIG. 3A shows a situation in which a sizable Internet browsingbook 300 (as reflected in the thicknesses 330 and 331) has been createdthrough the browsing process. Increasingly more contents have beenbrought into the browsing book through various mechanisms. Copendingpatent application Ser. No. 09/617,043, filed Jun. 14, 2000, describes anumber of methods and systems by which the new contents can be added tothe browsing book. FIG. 3A depicts two pages 301 and 302 that arecurrently visible. The contents 303 are displayed on the left page 301and the contents 304 are displayed on the right page 302. These contents303 and 304 may contain advertisements. The advertisements can appeareither as a banner smaller than the boundaries defined by the contents303 and 304, or they fill the entire contents 303 and 304 by themselves.The advertisement pages can also be on one of the pages 301 and 302 oron both pages (301 and 302), and may even cover further, successivepages.

[0074]FIG. 3B shows a flipped-open browsing book 300 that containscontents 303, 304, 307, and 308 displayed over the pages 301, 302, 305and 306, respectively. Some of the contents 311 and 312 are displayed onthe rear side of pages 302 and 305, respectively. The advertisementcontents may appear over more than the two pages 301 and 302 and/or onall the pages 301, 302, 305, 306, 311 and 312. The contents may fullyoccupy these pages, or they may occupy only a portion of these pages.

[0075] Advertisements may also be displayed on many single pages, pairsof pages, or groups of pages throughout the entire browsing book 300.The advertisements may fully occupy these pages or occupy smallerfootprints within these pages. Naturally, combinations of full-page andsmaller footprint displays are possible.

[0076] In addition to the fact that advertisements can appear asfull-page(s), another advantage of an Internet browsing book is thatadvertisements can be selected not only by the Web site or documentcontent providers, but also by the intermediary that delivers thecontents to the reader/browser. For example, in FIG. 3B, contents 303and 304 (appearing on pages 301 and 302 respectively) may be contentscreated by Company X accessed earlier by the browsing book 300 through aURL address or a hyperlink somewhere on the browsing book 300. On thesepages (301 and 302), banner or full-page advertisements could bedisplayed by Company X, where Company X might have collectedadvertisement fees from yet other companies who associated theseadvertisements with Company X's contents 303 and 304. Then, for example,at a later position in the browsing book, contents 312 and 308 (on theback of page 305 and the front of page 306, respectively), contentscreated by Company Y accessed by the browsing book 300 through a URLaddress or a hyperlink on some of the pages of the browsing book 300might be found. Again, within or around these contents 312 and 308,advertisements by Company Y regarding their own products (or yet othercompanies' products where Company Y had collected advertisement paymentsfrom these other companies) might be found. Furthermore, between page302 and the back of page 305, contents 311 and 307 that includeadvertisements delivered by a server that is specialized in feedingadvertisement contents to the browsing book (say, Advertisement Server411 in FIG. 4) may be found. Thus, within a single “book” display,advertisements from several different sources are present, even whenthose sources play different roles in the generation and presentation ofthe contents of the book.

[0077] Alternatively, contents 303, 304, 312 (found on the back of page305) and 308 together contain contents belonging to Company X or AuthorV, for example, and advertisements can be inserted between thesepages—contents 307 and 311 (back of page 302). These contents (303, 304,312, and 308) that belong to a given company or a given author such asCompany X or Author V can either be loosely related HTML pages or pagesthat are bound together in a book format, e.g., the OEB (Open ElectronicBook) format. The advertisement insertions (307 and 311) can thus beinserted either between-these HTML pages or inside the OEB book.

[0078] Therefore, one parameter which can be used to characterize thedelivery of advertisements is whether the advertisement is insertedbetween different books (e.g., OEB books or pages belonging to the sameWeb site) or within the same book or pages belonging to the same Website, as depicted in FIG. 3 and described above.

[0079]FIG. 4 depicts an Advertisement Matching/Delivery system 400 forlocating and delivering advertisements into a browsing book. Considerthat the browsing book software 401 is running on a computer at anInternet browsing book site 402. The user who is running the Internetbrowsing book 401 requests a document/book 405 in the OEB format. Thisrequest is transmitted through the Internet 403 (through, say, a datalink 407) to one of the book sites 404, and the desired book is returnedfrom one of the book sites 404 to the Internet browsing book 401. TheOEB Book 405 may contain a classification code 406 that describes thecontents of the Book 405. The browsing book software 401 then uses theclassification code 406 to request one or more relevant (e.g., targeted)advertisement(s) from the Advertisement Server 411 in the AdvertisementPortal site 410 through the data link 408.

[0080] Upon the request from the Browsing Book 401 for advertisements,the Advertiser Search Engine 412 can go to Advertiser Sites 413 tosearch for relevant advertisements (for example, based on theclassification of the book 406), through the data link 409.Alternatively, an advertiser site database 414, created in theadvertisement portal site 410, can provide data describing a relevantadvertisement to the advertisement server 411. The advertisement server411 thus can retrieve one or more advertisements from the advertisementsite database 414 based on the classification of the book 406 anddeliver the retrieved advertisement(s) to the browsing book 401.

[0081] This process is Internet browsing book-driven advertisementmatching/delivery where the request for advertisements/advertisers comesfrom the Internet browsing book site 402. This process is also known asthe Dynamic Advertisement Streaming Method.

[0082] At the advertisement portal site 410, there is also aadvertiser/client registration engine 422 that allows advertiser sites413 and book sites. 404 to pre-register themselves onto the advertisersite database 414 and the book site database 421, respectively. Theadvantage of pre-registration is that these book sites and advertisersites have, e.g., priority of being offered as a candidate when arequest for an advertiser or book of a certain nature or classificationis made. The Advertiser Site Database 414 and Book Site Database 421 maycontain various parameters associated with advertisements offered by theadvertiser from the advertiser sites 413 and advertisements requested bythe book/content author from book sites 404, respectively. Theseparameters will be described shortly.

[0083] Either in addition to or in substitution for the above dynamicadvertisement streaming method where the advertisement is dynamicallydelivered to the browsing book depending on the browsing book's contentsand requests, a “Static Advertisement Delivery Method” whereadvertisements are pre-delivered and incorporated into the books 405 atthe book sites 404 can also be used.

[0084] The “static” advertisement delivery method can be further dividedinto two methods: the “pull” method and the “push” method. In the pullmethod, the book site 404 initiates the request for advertisements. Oncethe request is initiated, the database is search and presumably arelevant advertisement is found. The advertisement matching process canbe manual, e.g., performed by a book site 404 employee searching theadvertiser site database 414 in the advertisement portal 410 or otheravailable sources of advertiser site 413 data, or automated, e.g., thebook site 404 employee enters the request for an advertisement byspecifying, for example, a number of parameters, such as the name of thespecific advertisement (e.g., a Coca Cola® advertisement), or the nameof the category of advertisement (e.g., a golf advertisement), time ofdisplay of advertisement on the book sites' book 405, length of displaytime, dimensions of advertisement, position in the book 405 in which itwill appear, rates offered, etc.

[0085]FIG. 5A shows an exemplary advertisement request (Pull) interface501 on a computer that can be used to initiate a static advertisement“pull” process. A specific advertisement type 502 and/or category 503can be specified. The name of the specific advertisement 504 and/or nameof the category 505 can also be specified. other things that may bespecified include, e.g., time of display of advertisement 506, thelength of display time 507, the dimensions of the advertisment 508, theposition of the advertisement in the book 509, rates offered 510, etc.After data have been entered, pressing the GO button 511 initiates theadvertisement search and matching process on the advertiser sitedatabase 414.

[0086] In the “push” method, the advertiser initiates the advertisementoffer process. Again, the advertisement matching process can be manual,e.g., performed by an advertiser site 413 employee searching the booksite database 421 in the advertisement portal 410 or other availablesources of book site 404 data, or automatic—e.g., the advertiser site413 employee enters the offer of an advertisement by specifying one ormore parameters, such as, e.g., the name of the specific advertisement(e.g., Coca Cola advertisement), or the name of the category ofadvertisement (e.g., a golf advertisement), time of display ofadvertisement on the book sites' books 405, length of display time,dimensions of advertisement, position in the book 405 in which it willappear, rates requested, etc.

[0087]FIG. 5B shows an exemplary advertisement offer (push) interface531 on a computer that can be used to initiate a static advertisement“push” process. A specific advertisement 532 and/or type of category 533can be specified. The name of the specific advertisement 534 and/or nameof the category 535 can also be specified. Other things that can bespecified include, e.g., time of display of advertisement 536, length ofdisplay time 537, dimensions of the advertisement 538, position in book539, rates requested 540, etc. After data have been entered, pressingthe GO button 541 initiates the advertisement search and matchingprocess at the book site database 421.

[0088] During the search for an advertisement match, the search processcan reach beyond the advertiser site database 414 or the book sitedatabase 421. In the process of searching for an advertiser, theadvertiser site search engine 412 can be activated to search formatching advertisers in some advertiser sites 413 through the data link409. In the process of searching for a relevant book 405, the book sitesearch engine 420 can be activated to search for matching books 405 insome book sites 404 through the data link 415.

[0089] Alternatively, the selection and matching of advertisements canbe initiated by an automatic advertisement matching engine 430 asdepicted in FIG. 4. Unlike in the case of the advertisement request oroffer processes as depicted in FIG. 5A and 5B, which is triggered by theGO buttons (511 or 541) and carried out on the existing advertiser sitedatabase 414 or book site database 421, respectively, the automaticadvertisement matching engine 430 carries out matching between data inthe advertiser site database 414 and book site database 421 as and whennew data are added to them. That is, in an earlier session after anadvertisement request process (FIG. 5A) or an advertisement offerprocess (FIG. 5B) was carried out, the book site database 421 or theadvertiser site database 414 respectively may have captured thespecified advertisement parameters (502-510 or 532-540). Now, when newadditional data are added into the advertiser site database 414 or booksite database 421, the automatic advertisement matching engine 430 willinitiate a matching process between the two databases (414 and 421) andreport to the book sites 404 or the advertiser sites 413 as and when anynew matches are found.

[0090] In order to control the appearance of advertisements on the pagesof the books 405 as and when they appear as a browsing book 401 on theInternet browsing book site 402, some specifications are needed. Oneformat that the books 405 on the book sites 404 can appear in is the OEB(Open Electronic Book) format defined by an industrial consortium. FIG.6 depicts the format specification. At the top level there is abook-level specification 6001 that specifies the pages of the book 6011as well as some parameters associated with the book 6021. Thespecification of the pages of the book 6101 contains some parameterspecifications 6111 and 6131, among which is the specification foradvertisement pages 6121. The entry 6121 defines whether the page is anadvertisement page. It also has a pointer 6201 that points to aspecification of the advertisement: i.e., whether it is static 6211 ordynamic 6221 (as described above, static advertisements arepre-incorporated into the books 405 before they are downloaded andviewed while dynamic advertisements are streamed into the browsing book401 as they are being viewed on the Internet browsing book site 402),its category 6231 (if it is a static page, the category of theadvertisement and if it is a dynamic page, the category it will accept),and its specific name 6241 (e.g., “Coca-Cola®” —if it is a static page,the name of the advertisement and if it is a dynamic page, the name ofthe advertisement it will accept.)

[0091] The dynamic advertisement streaming method described above,though feasible technically, may raise a privacy issue. In this method,the Internet browsing book 401 has to announce to the advertisementserver 411 that it is viewing some contents of a certain nature based onthe classification code 406 that it sends, possibly also revealing theidentity of the person browsing with the browsing book 401. In order toprotect the identity of the viewer from the advertisement portal 410, amethod called “Privacy-ensured Dynamic Advertisement Streaming” can beused. The two major systems components for implementing this method areillustrated in FIG. 4. as data transfer links 450 and 451 on the onehand, and advertisement relay server 455 on the other.

[0092] In this privacy-ensured method, the Internet browsing book 401,instead of communicating directly with the advertisement portal 410directly through the link 408, communicates with it instead through thelinks 450 and 451, and through the advertisement relay server 455 whichis typically resident on a book site 404.

[0093] The advertisement relay server 455 serves to shield the identityof the viewer at the Internet browsing book site 402 from theadvertisement portal 410. The advertisement relay server 455 serves toidentify the Internet browsing book site 402 that may have requested abook 405 with a certain classification 406 through the link 451, andthen the server will request for an appropriate advertisement from theadvertisement portal site 410 through the link 450. The identity of theviewer at the Internet browsing book site 402 may be known to the booksite 404 when the browsing book site 402 requests a book 405 to bedownloaded from the book site 404, but the advertisement relay server455 need not reveal this information to the advertisement portal 410.Hence this method protects the privacy of the viewer at the Internetbrowsing book site 402 from the advertisement portal 410.

[0094] With this privacy protection mechanism, the identity of the canbe protected even during use of our advertisement matching/deliverysystem 400.

[0095] Advertisement revenue can potentially be shared between threeparties: the book sites 404, the advertiser sites 413 (if theseadvertiser sites 413 are in turn brokering the original or other sourcesof advertisements), and the advertisement portal site 410. The revenuearrangements can be based on either pre-advertised revenue arrangementson the book sites 404 and advertiser sites 413 or pre-advertised revenuearrangements on the book site database 421 or the advertiser sitedatabase 414. These pre-advertised arrangements may includespecifications relating to how much revenue is to be shared and how therevenue is to be shared among relevant parties for example, as afunction of the advertisement arrangement (such as, e.g.., whether it isa within book/Web site's pages advertisement or between book/Web sites'pages advertisement, or when and for how long or in what exact formsthese advertisements would appear, etc.). If a book site 404 or anadvertiser site 413 is contacted by either the book site search engine420 or the advertiser site search engine 412 that has no pre-advertisedrevenue arrangement with their sites, a message can be sent to theowners of these sites to request advertisement arrangements, or to addtheir information including the advertisement and revenue arrangementsonto the advertisement portal site's 410 advertiser site database 414 orbook site database 421.

[0096] Typically, the book site 404 would receive a smaller proportionof the advertisement revenue if the advertisement is to appear betweendifferent books/Web sites' pages than if the advertisement were toappear within a particular book/Web site's pages. This is because anadvertisement that appears within a book is deemed to benefit more fromthe book's contents than otherwise. However, market forces of supply anddemand will dictate the final arrangement.

[0097] Book sites 404, in general, can also include a typical company'sor an individual's Web site that contains loosely related HTML pagesthat together comprise a “Web book.” Alternatively, a company/individualcould have re-authored its/his/her web site into a book form “Web book”(OEB format, for example) that can be browsed with the Internet browsingbook 401. The Internet browsing book 401, as described in copendingpatent application Ser. No. 09/617,043, filed Jun. 14, 2000, candownload and display loose HTML pages as well as books in an extendedOEB format.

[0098] In order to take advantage of the advertisement matching system's400 ability to effectively match advertisements over the Internet, theclassification code 406 resident in the electronic books 405 is needed.However, to stream advertisements between pages being viewed on theInternet browsing book 401 that are not pages that are part of someelectronic books 405 but are instead “loose” HTML pages from one or moreWeb sites, some classification information of the contents of those Websites is needed. This classification information can be in the form of aclassification code resident on the Web server hosting the Web contentsof a Web site, or resident on the HTML pages themselves (but perhapsmade invisible). For the latter, there is a need to extend the HTMLformat, for the classification code to remain invisible to viewers ofthe HTML pages involved.

[0099] An alternate and/or complementary system for providingadvertisements using a browser is illustrated in FIG. 7. Moreparticularly, the system shown in FIG. 7 can provide targetedadvertisements using a browser. A more complete description ofpredictive targeting and marketing is given, e.g., in “The DirectMarketing Handbook,” Edward L. Nash, ed., McGraw-Hill, New York, 1992,the entire contents of which are incorporated herein by reference.

[0100] The network structure of FIG. 7 will include at least one browserinteraction site 630 that, in preferred embodiments, is connected by wayof an Internet network 620 to an advertisement database system 610, atleast one content database system 623, and, in some embodiments, anadvertisement broker database system 640 and/or at least one individualadvertiser database system 650. In alternate embodiments, the network620 can be implemented either as any other type of communications ortelecommunications network. For example, the network 620 may be a localarea network, a wide area network, a virtual private network, and/or aconnection via a public switched telephone network. In an exemplaryembodiment, the network 620 includes a number of connection modalities,including a cable-modem connection, a DSL connection, a dial-up modemconnection, and/or other suitable connection mechanisms.

[0101] The processors 611, 621, 631, 641, and 651 are used for codingand decoding data transmitted over network 620, controlling reading andwriting of data in associated memories .(e.g., 612, 622, 642, 652), andanalyzing the data in those memories. Processor 631 is furthermoreconfigured to received content request information from content requestdevice 632, and to cause content display device 633 to display selectedcontent. The processors 611, 621, 631, 641, and 651 can be any processorconfigured for high volume data transmission and performing asignificant number of mathematical calculations in processingcommunications (possibly as a webserver), database searches, andcomputational algorithms. A conventional personal computer orworkstation with sufficient memory and processing capability may beconfigured to act as processors 611, 621, 631, 641, and 651. A PENTIUMIII microprocessor such as the 1 GHZ PENTIUM III for the SC 242manufactured by Intel Inc., a Motorola 500 MHz PowerPC G4 processor, andthe Advanced Micro Devices 1 GHz AMD ATHLON processor may all be used asprocessors 611, 621, 631, 641, and 651. The memories 612, 622, 642, 652can be any sort of processor-accessible data medium, including but notlimited to any type of disk including floppy disks, optical disks,CD-ROM, magneto-optical disks, ROMs, RAMs, EPROMs, EEPROMs, flashmemory, magnetic or optical cards, or any type of media suitable forstoring electronic data.

[0102] Browser interaction site 630 includes a content request device632 and a content display device 633, both electrically connected toprocessor 631. The browser interaction site 630 is designed to beoperated by an individual and, in some embodiments, maintain theidentification of the individual in secrecy. Content request device 632can be any of a number of input devices. Examples of suitableembodiments include keyboards, touch screens, computer mouses, bar codereaders, magnetic readers (including strip, disk, and tape readers),smart card readers, pressure sensors, motion detectors, electromagneticreceivers, voltmeters, heat sensors, and other transducers capable ofbeing interfaced with a digital processor and that will transduce aconsumer's request information. Content display device 633 is mostcommonly a computer monitor, but can also include the dedicated and/orspecialized displays such the book-like human-computer interfacedescribed in U.S. Pat. No. 6,064,384, the contents of which beingincorporated herein by reference.

[0103] The advertisement database system 610 is commonly owned and/oroperated by the supplier of the browser software. This may be a “firststop” for the browser software when content is requested, and serves toprovide the browser software with targeting information, financialinformation and record keeping, and the actual advertisements themselvesto be inserted by the browser software into the displayed content.Memory 612 of the advertisement database system 610 can include any of anumber of different tables containing associated data records.Illustrative examples such tables are shown as tables 612 a-612 d,although other groupings are possible within the scope of the presentinvention. Advertiser table 612 a stores advertiser information such as,for example, a listing of the advertisements of the particularadvertiser, targeting information regarding the desired content forinsertion of the advertiser's advertisements, contract informationregarding the advertiser, payment information regarding the advertiser,times and conditions for displaying certain advertisements of theadvertiser, and even, in some embodiments, specific advertisement data.Advertisement table 612 b includes the advertisement data relating toindividual advertisements and/or various parameters related to theirdisplay, billing, and/or other factors. This information also includesimages, text, and/or sound files that form the advertisements.Advertisement table 612 b can thus contain much of the same informationregarding particular advertisements with or without including anyinformation regarding the advertiser. For example, advertisement table612 b can include targeting information regarding the desired contentfor insertion of the particular advertisements, contract informationregarding the particular advertisement, payment information regardingthe advertisement, and/or times and/or conditions for displaying theadvertisement. The illustration of the tables 612 a and 612 b withoverlapping data is intended to display alternate method of storing,accessing, and analyzing the same information in memory 612. Theadvertisements stored in advertisement table 612 b can either beprenegotiated for display in certain content at certain rates, or theycan simply be stored for pending negotiations with an advertiser thatmay or may not be based upon a display within a particular content.

[0104] Continuing with the illustrative development of various dataorganization schemes, targeting information table 612 c can storetargeting information in tables separate from the storage of theadvertisement data itself. This data can include targeting informationsuch as advertisement classifications that relate to the desired contentinto which the advertisement is preferably inserted, desired demographiccharacteristics of readers likely to be accessing certain content, orother information related to the targeting of the advertisements.Targeting information table 612 c can also store information related totargeting information of various content and/or extraction of targetinginformation from content. For example, if a content provider does-notprovide content targeting information regarding their particularcontent, then targeting information table 612 c can include thisinformation for access by the browser software when a particular contentsuch as a web site is accessed. In this way, a browser software mayinsert targeted advertisements into content without the contentprovider's acquiescence. For example, assume that an online newspaperdoes not wish to provide demographic information regarding their contentin HTML format so that a web-browser software can insert advertisements.Targeting information table 612 c can include (approximate or actual)demographic information regarding the online newspaper. This informationcan be acquired, for example, by contacting the online newspaper'sadvertising department for the relevant demographic information, or itcan be extracted from the content itself. For example, a Flesch-KincaidGrade Level score for the content can be determined automatically (by,e.g., the browser or a maintainer of the advertisement database system610) and used to assign some demographic characteristics to the content.Alternatively, the document can be searched and the occurrence rate ofcertain keywords can be used to assign demographic characteristics tothe content. For example, frequent occurrence of the word “ninja” in thecontent might indicate a reader demographic weighted toward pre-teen orteenage males, while frequent occurrence of the word “yacht” mightindicate a different reader demographic. Alternatively, the demographicof the advertisements inserted by the content providers themselves canbe used to ascertain the reader demographic of a certain content.

[0105] Financial records table 612 d can include information related tothe costs and/or payments associated with the display of a certainadvertisement. For example, financial records table 612 d can includevarious weights associated with certain demographic characteristics thatcan be used to generate a cost of displaying an advertisement that isparticular to a particular content. For example, the cost of displayingan advertisement for a sports car in content commonly accessed by 20-30year old males with a college education during the spring might behigher than the cost of displaying an advertisement to 20-30 year oldfemales with only a high school diploma in the winter. Individualweights could be assigned to individual demographic characteristics ofthe typical readers of certain content, such as education level, income,age, race, gender, time of year, occupation, and/or other factors. Inthis way, a sliding cost scale that considers many demographiccharacteristics together or individually can be generated.Financial-records table 612 d can also include information such aswhether the advertiser has a limit on the amount that the advertiser iswilling to spend on advertisements and accounts payable information forthe particular advertiser.

[0106] Content database system 623 may be a third party site, or aconglomeration of third party sites, that provide content to readers.Content database system 623 may include one of more content tables 622 athat store the content itself, as well as a targeting information table622 b that may contain information related to the reader demographic ofthe content in content table 622 a. Naturally, these two tables can becombined or otherwise subdivided. The targeting information table 622 bcan also be omitted in certain embodiments and such informationextracted from the content or otherwise obtained as described above.

[0107] In the content of the browser that displays content in the formof a book, content database system 623 may only provide a portion of thetotal content displayed in a single book representation. For example,two separate websites joined by a hyperlink may form two separatecontent database systems 623. Although the content of a single bookrepresentation may originate from these two individual websites, theadvertisements inserted within and/or between the content in the bookrepresentation can draw targeting information from one and/or both ofthese websites.

[0108] Individual advertiser database system 650 provides a venue for anindividual advertiser to make an advertisement, as well as demographicinformation regarding the target population of the advertisement,available to a web-browser that is capable of inserting advertisements.Alternatively, if this information has already been stored at anadvertisement database systems 610, the individual advertiser databasesystem 650 can be used to monitor and/or approve display of a storedadvertisement within a particular content. This venue may beparticularly useful when an advertiser has not prenegotiated placementof an advertisement with the operator of the advertisement databasesystem 610. The memory 652 of such an individual advertiser databasesystem 650 can include data regarding one or more advertisements in anadvertisement table 652 a, and targeting information in a targetinginformation table 652 b. Naturally, these two tables can be combined orotherwise subdivided. Advertisement table 652 a can include the actualadvertisement itself in the form of an image, sound file, and/or text tobe inserted into the content by the browser software. Advertisementtable 652 a can also include various information related to how, when,and where the advertiser wants the advertisement inserted, billinginformation for the advertiser, and/or other financial information. Forexample, the advertisement table 652 a can thus constitute a simplerepository for advertisements that have prenegotiated insertionlocations/costs, etc., or it can constitute a “request for display”whereby a browser that is currently displaying content contacts theadvertisement site to see if the advertiser is interested in having(i.e., willing to pay to have) the stored advertisement inserted in thedisplayed content. Targeting information table 652 b can include variousweights associated with certain demographic characteristics of thereaders of content and/or a list of content database systems 623 thatstore content in content table 622 a into which the advertiser isinterested in having an advertisement from advertisement table 652 ainserted.

[0109] An alternate form or storing and/or locating appropriateadvertisements may include an advertisement broker having anadvertisement broker database system 640. The advertisement brokerdatabase system 640 substantially includes the same information as theindividual advertiser database system 650, but for a plurality ofindividual advertisers. This arrangement may remove the need for abrowser software to search multiple individual advertiser databasesystems 650 before locating a suitable advertisement. Thus, severalindividual advertisers would provide their advertisements and/ortargeting information to the broker, who would locate a suitableadvertisement when contacted by the browser software. Alternatively, theadvertisement broker database system 640 can monitor and/or approve ofinsertion of an advertisement already stored in the advertiser databasesystem 610.

[0110]FIGS. 8a-d illustrate exemplary data records for use in thecurrent system. FIG. 8a illustrates an exemplary data recordillustrating targeting information relating to a particularadvertisement, such as that found in targeting information tables 612 c,622 b, 642 b, and 652 b of FIG. 7. Field 710 c includes an advertisementname or other identification information that can be used to identify anadvertisement both to the browser software and to the advertiser when abill is presented. Fields 710 d-f include one or more demographicfactors relevant to the advertisement identified in field 710 c. Thedemographic factors can include, for example, weightings used tocalculate an amount to be paid for inserting the advertisement into thecontent identified in field 710 c, times the advertisement should bedisplayed, or even demographic information that would indicate that anadvertisement should not be displayed ever to that particulardemographic group.

[0111]FIG. 8b illustrates an exemplary data record illustratingdemographic information relating to a particular content such as thatfound in targeting information tables 612 c and 622 b of FIG. 7. Field720 c includes a content name or other identification information thatcan be used to identify the content both to the browser software and tothe advertiser when a bill is presented. Fields 720 d-f include datarelated to the particular demographics of the content. As discussedabove, this information can be provided by the content provider in atargeting information table 622 b, or it can be generated/extracted bythe advertisement database system 610 and placed in a targetinginformation table 612 c. The demographic information of fields 720 d-fcan relate to any of a number of demographic characteristics, includingbut not limited to the gender, age, education level, interests,occupation, geographic location, income level, and/or spending habits ofthe individuals who commonly are interested in the content identified infield 720 c. By matching the demographic factors of FIG. 8a with thedemographic information of FIG. 8b, a processor can automaticallyidentify targeted advertisements for insertion by the browser software.For example, summing the product of a numerical descriptor of thedemographic information in fields 720 d-f of FIG. 8b with numericalweightings of the relative importance of the particular demographicinformation stored in fields 710 d-f of FIG. 8a will provide anapproximate idea of how targeted an advertisement will be to thedemographic of a particular content.

[0112]FIG. 8c illustrates an exemplary data record illustratingadvertisement information relating to a particular advertiser such asthat found in an advertiser table 612 a of FIG. 7. Field 730 c includesan advertisement name or other identification information that can beused to identify the content both to the browser software and to theadvertiser when a bill is presented. Fields 730 d-g include data relatedto the individual advertisements of the particular advertiser identifiedin field 730 c. Fields 730 d-g may include other information related tothe individual advertisements. For example, demographic factors relatedto the desired viewers of a particular advertisement may be included ineach of the fields 730 d-g. Exemplary field 730 h includes billinginformation related to the particular advertiser.

[0113]FIG. 8d illustrates an exemplary data record illustratingadvertisement information relating to a particular advertisement such asthat found in advertisement tables 612 b, 642 a, and 652 a of FIG. 7.Field 740 c includes an advertisement name or other identificationinformation that can be used to identify the content both to the browsersoftware and to the advertiser when a bill is presented. Fields 740 d-ginclude data related to the advertisement itself. This data may includethe targeting information described in FIG. 8a and/or it may relate toother matters. For example, fields 740 d could include informationrelating to the display (e.g., size and placement) of the advertisement.Field 740 e could include information related to when the advertisementshould be displayed. Field 740 f could include information related tothe rate that the advertiser is willing to pay to have the advertisementdisplayed. This rate information could include the weighting factorsmentioned in regard to FIG. 8a. Field 740 g could include theadvertisement itself, such as information related to the color andlocation of pixels in an image advertisement.

[0114]FIG. 9 illustrates a process flow according to a first embodimentof the present invention for insertion and display of an advertisementby browser software. The process flow starts with the identification ofa desired content by a reader and/or browser software user in step 5100.This can occur by any of a number of known mechanisms, includingreceiving a mouse click upon a hyperlink by a reader and/or browsersoftware user. A signal identifying the desired content is transmittedby the browser software and an advertisement is returned by way of anetwork such as network 620 of FIG. 7. This advertisement is received bythe browser software and inserted within the desired content in step5200. According to the present invention, the desired content need notbe transmitted over the network 620. For example, it could be stored ona computer readable medium at the home computer of the reader and/orbrowser software user. Once content is identified in step 5100, theprocess flow can proceed with step 5200 regardless of the origins of theidentified content. Thereafter, in step 5300, the content and insertedadvertisement are delivered to the consumer, commonly upon some displaydevice for illustrating electronic messages.

[0115]FIG. 10 illustrates a process flow according to a secondembodiment of the present invention for insertion and display of anadvertisement by browser software wherein the content demographic isalso identified. This is performed in step 6200, wherein a demographicof the population that is likely to be reading the content identified instep 6100 is also identified. Once the content demographic isidentified, it can be used in step 6300 to provide a targetedadvertisement which, along with the identified content, is delivered instep 6400.

[0116]FIG. 11 illustrates a process flow according to a third embodimentof the present invention for insertion and display of an advertisementby browser software wherein an advertiser is billed directly by thesupplier of the browser software (or the supplier of the database usedby the browser software) to identify a content demographic or anadvertisement for insertion within the content. Billing of theadvertiser is performed in step 7500, preferably after the delivery ofthe content with inserted advertisement to the reader/user of webbrowser. As, illustrated in this figure, the content demographic isidentified in step 7200. This step 7200 is naturally not necessary forbilling the advertiser, but rather is included to indicate that eitherthe browser software supplier, or the entity that maintains one or moredatabases accessed by the browser software, can generate revenue.

[0117]FIG. 12 illustrates a process flow according to a fourthembodiment of the present invention for insertion and display of anadvertisement by browser software, whereby the previously-discussedstatic and dynamic advertisement delivery methods are further described.Step 8500 illustrates one method of embodying the static delivery methodwhereby an advertiser has prenegotiated a contract with the supplier ofthe browser software or the maintainer of a database accessed by thebrowser software, such as an advertisement database system. 610 of FIG.7. In this case, the advertisement is selected directly from theadvertisement database system 610 of FIG. 7 after a particular contentis accessed from, for example, a content database system 623 of FIG. 7.Naturally, both the content database system 623 and the advertisementdatabase system 610 of FIG. 7 can be operated by the same entity.Alternatively, if there has been no prenegotiated advertisement for theselected content, a dynamic insertion that includes the search of pluralindividual advertiser database-systems 650 and/or advertisement brokerdatabase systems 640 can be performed. The actual storage location of anadvertisement is not constrained by the time at which an advertisingrelationship was negotiated, but rather these examples are given toprovide one illustrative embodiment of the present invention.

[0118]FIG. 13 illustrates an exemplary computer system 801 upon which,for example, many of the database systems illustrated in FIG. 7 can beimplemented according to the present invention. For example, computersystem 801 can alternately form the advertisement database system 610,the content database system 623, the browser interaction site 630, theadvertisement database system 640, and/or the individual advertiserdatabase system 650 of FIG. 7. For this reason, the computer system 801will be described using unique reference numerals. When a part ofcomputer system 801 that is analogous to a part in another figure isdescribed, this will be explicitly stated in the text. Computer system801 includes a bus 803 or other communication mechanism forcommunicating information, and a processor 805 coupled with bus 803 forprocessing the information. Processor 805 can form any or all of theprocessors 611, 621, 631, 641, and/or 651 of FIG. 7. Computer system 801also includes a main memory 807, such as a random access memory (RAM) orother dynamic storage device (e.g., dynamic RAM (DRAM), static RAM.(SRAM), synchronous DRAM (SDRAM), flash RAM), coupled to, bus 803 forstoring information and instructions to be executed by processor 805. Inaddition, main memory 807 may be used for storing temporary variables orother intermediate information during execution of instructions to beexecuted by processor 805. Computer system 801 further includes a readonly memory (ROM) 809 or other static storage device (e.g., programmableROM (PROM), erasable PROM (EPROM), and electrically erasable PROM(EEPROM)) coupled to bus 803 for storing static information andinstructions for processor 805. A storage device 811, such as a magneticdisk or optical disk, is provided and coupled to bus 803 for storinginformation and.instructions. Storage device 811 can contain any and/orall of the data storage tables 612 a, 612 b, 612 c, 612 d, 622 a, 622 b,642 a, 642 b, 652 a, and/or 652 b of FIG. 7.

[0119] The computer system 801 may also include special purpose logicdevices (e.g., application specific integrated circuits (ASICs)) orconfigurable logic devices (e.g., generic array of logic (GAL) orreprogrammable field programmable gate arrays (FPGAs)). Other removablemedia devices (e.g., a compact disc, a tape, and a removablemagneto-optical media) or fixed, high density media drives, may be addedto the computer system 801 using an appropriate device bus (e.g., asmall computer system interface (SCSI) bus, an enhanced integrateddevice electronics (IDE) bus, or an ultra-direct memory access (DMA)bus). Such removable media devices and fixed, high density media drivescan also contain the data storage tables 612 a, 612 b, 612 c, 612 d, 622a, 622 b, 642 a, 642 b, 652 a, and/or 652 b of FIG. 7. The computersystem 801 may additionally include a compact disc reader, a compactdisc reader-writer unit, or a compact disc juke box, each of which maybe connected to the same device bus or another device bus.

[0120] Computer system 801 may be coupled via bus 803 to a display 813,such as a cathode ray tube (CRT), for displaying information to acomputer user. Display 813 can form a content display device 633 of FIG.7. The display 813 may be controlled by a display or graphics card. Thecomputer system includes input devices, such as a keyboard 815 and acursor control 817, for communicating information and command selectionsto processor 805. The keyboard 815 and/or a cursor control 817 can forma content request device 632 of FIG. 7. The cursor control 817, forexample, is a mouse, 4 trackball, or cursor direction keys forcommunicating direction information and command selections to processor805 and for controlling cursor movement on the display 813.

[0121] The computer system 801 performs a portion or all of theprocessing steps of the invention in response to processor 805 executingone or more sequences of one or more instructions contained in a memory,such as the main memory 807. Such instructions may be read into the mainmemory 807 from another computer readable medium, such as storage device811. One or more processors in a multi-processing arrangement may alsobe employed to execute the sequences of instructions contained in mainmemory 807. In alternative embodiments, hard-wired circuitry may be usedin place of or in combination with software instructions. Thus,embodiments are not limited to any specific combination of hardwarecircuitry and software.

[0122] As stated above, the system 801 includes at least one computerreadable medium or memory programmed according to the teachings of theinvention and for storing data structures, tables, records, or otherdata described herein. Examples of computer readable media are compactdiscs, hard disks, floppy disks, tape, magneto-optical disks, PROMS(EPROM, EEPROM, Flash EPROM), DRAM, SRAM, SDRAM, etc. Stored on any oneor on a combination of computer readable media, the present inventionincludes software for controlling the computer system 801, for driving adevice or devices for implementing the invention, and for enabling thecomputer system 801 to interact with a human user. Such software mayinclude, but is not limited to, device drivers, operating systems,development tools, and applications software. Such computer readablemedia further includes the computer program product of the presentinvention for performing all or a portion (if processing is distributed)of the processing performed in implementing the invention.

[0123] The computer code devices of the present invention may be anyinterpreted or executable code mechanism, including but not limited toscripts, interpreters, dynamic link libraries, Java classes, andcomplete executable programs. Moreover, parts of the processing of thepresent invention may beidistributed for better performance,reliability, and/or cost.

[0124] The term “computer readable medium” as used herein refers to anymedium that participates in providing instructions to processor 805 forexecution. A computer readable medium may take many forms, including butnot limited to, non-volatile media, volatile media, and transmissionmedia. Non-volatile media includes, for example, optical, magneticdisks, and magneto-optical disks, such as storage device 811. Volatilemedia includes dynamic memory, such as main memory 807. Transmissionmedia includes coaxial cables, copper wire and fiber optics, includingthe wires that comprise bus 803. Transmission media also may also takethe form of acoustic or light waves, such as those generated duringradio wave and infrared data communications.

[0125] Common forms of computer readable media include, for example,hard disks, floppy disks, tape, magneto-optical disks, PROMs (EPROM,EEPROM, Flash EPROM), DRAM, SRAM, SDRAM, or any other magnetic medium,compact disks (e.g., CD-ROM), or any other optical medium, punch cards,paper tape, or other physical medium with patterns of holes, a carrierwave (described below), or any other medium from which a computer canread.

[0126] Various forms of computer readable media may be involved incarrying out one or more sequences of one or more instructions toprocessor 805 for execution. For example; the instructions may initiallybe carried on a magnetic disk of a remote computer. The remote computercan load the instructions for implementing all or a portion of thepresent invention remotely into a dynamic memory and send theinstructions over a telephone line using a modem. A modem local tocomputer system 801 may receive. the data on the telephone line and usean infrared transmitter to convert the data to an infrared signal. Aninfrared detector coupled to bus 803 can receive the data carried in theinfrared signal and place the data on bus 803. Bus 803 carries the datato main memory 807, from which processor 805 retrieves and executes theinstructions. The instructions received by main memory 807 mayoptionally be stored on storage device 811 either before or afterexecution by processor 805.

[0127] Computer system 801 also includes a communication interface 819coupled to bus 803. Communication interface 819 provides a two-way datacommunication coupling to a network link 821 that is connected to alocal network 823. For example, communication interface 819 may be anetwork interface card to attach to any packet switched local areanetwork (LAN). As another example, communication interface 819 may be anasymmetrical digital subscriber line (ADSL) card, an integrated servicesdigital network (ISDN) card or a modem to provide a data communicationconnection to a corresponding type of telephone line. Wireless links mayalso be implemented. In any such implementation, communication interface819 sends and receives electrical, electromagnetic or optical signalsthat carry digital data streams representing various types ofinformation. Network link 821 typically provides data communicationthrough one or more networks to other data devices. For example, networklink 821 may provide a connection to a computer through local network823 (e.g., a LAN) or through equipment operated by a service provider,which provides communication services through a communications network827. Communications network 827 can form network 620 of FIG. 7. In someembodiments, local network 823 and communications network 827 preferablyuse electrical, electromagnetic, or optical signals that carry digitaldata streams. The signals through the various networks and the signalson network link 821 and through communication interface 819, which carrythe digital data to and from computer system 801, are exemplary forms ofcarrier waves transporting the information. Computer system 801 cantransmit notifications and receive data, including program code, throughthe network(s), network link 821 and communication interface 819.

[0128] While particular embodiments of the present invention have beenillustrated and described, it will be appreciated that numerous changesand modifications will occur to those skilled in the art, and it isintended that the appended claims cover all those changes andmodifications which fall within the spirit and scope of the presentinvention.

[0129] Obviously numerous modifications and variations of the presentinvention are possible in light of the above teachings. It is thereforeto be understood that within the scope of the appended claims, theinvention may be practiced otherwise than specifically described herein.

1. A method for electronically inserting advertisement into displayedcontent, comprising steps of: organizing sequentially a content intomore pages, then what are simultaneously viewed on a single display;inserting an advertisement at a location within said content, saidcontent now including said advertisement; dividing said content into aplurality of discrete content amounts; displaying at least two of saiddiscrete content amounts; and advancing to a selected discrete contentamount other than said at least two discrete content amounts, whereinsaid displaying step comprises displaying two of said discrete contentamounts in a book representation, and said advancing step comprisesillustrating a page flipping to said selected discrete content amount.2. A method for electronically inserting advertisement into displayedcontent, comprising steps of: organizing sequentially a content intomore pages then what are simultaneously viewed on a single display;inserting an advertisement at a location within said content, saidcontent now including said advertisement; dividing said content into aplurality of discrete content amounts; displaying at least two of saiddiscrete content amounts; and advancing to a selected discrete contentamount other than said at least two discrete content amounts, whereinsaid advancing step comprises receiving a click upon a thicknessindicator describing an amount of said content at least one of beforeand after said at least two discrete content amounts.